A control method of combining the current feedback and load tracking controller is presented.
提出了以电流为反馈量进行负载跟踪,实现电机轻载节能的控制方法。
For the sake of meeting rising need of load, system should perform Maximum Power Point Tracking control.
当负载较大的时候,为了满足负载的需求,系统将进行最大功率点的跟踪控制。
This paper proposes a power unit intelligent control system implementing wide range load tracking.
提出了一个实现大范围负荷跟踪的火电单元机组智能控制系统。
The result shows that load simulation system has a nice tracking characteristic by means of nonlinear control law, and the redundant moment brought by strong disturbance can be effectively restrained.
结果表明,采用非线性控制规律,负载模拟系统的跟踪特性好,且系统能有效抑制强扰动所引起的多余力矩。
The induction motor tracking control based on passivity principle is analyzed in case of general unknown time-varying load torque and rotor resistance.
研究了负载转矩和转子电阻在一般的未知时变情形时对异步电动机期望时变电磁转矩的渐近跟踪控制问题。
Through the MATLAB simulation, it is proved that this control algorithm can realize tracking to the assigned speed and enable the fluid class load to have very good stable performance.
通过MATLAB仿真看出,使用该控制算法可以很好地实现跟踪给定速度,使流体类负载有很好的稳定性能。
Theoretical analysis and simulation results show that the proposed control method has high tracking accuracy and low computation load and is easy for application.
理论分析和仿真研究表明,提出的控制方法具有姿态跟踪精度高,实时计算量小,便于工程实现等优点。
Theoretical analysis and simulation results show that the proposed control method has high tracking accuracy and low computation load and is easy for application.
理论分析和仿真研究表明,提出的控制方法具有姿态跟踪精度高,实时计算量小,便于工程实现等优点。
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